Concepts of Modern Physics Presentations
... SPH4U: Concepts of Modern Physics Presentations Guidelines: You will choose a topic in modern physics from the list below. Each topic is a basic concept or idea in modern physics (related to quantum mechanics, general relativity, particle physics, or theories of everything) You will be allotted 10 m ...
... SPH4U: Concepts of Modern Physics Presentations Guidelines: You will choose a topic in modern physics from the list below. Each topic is a basic concept or idea in modern physics (related to quantum mechanics, general relativity, particle physics, or theories of everything) You will be allotted 10 m ...
Non perturbative QCD
... QCD a QFT (synthesis of special relativity and quantum mecanics): 1) We must first define fields and the corresponding particles. 2) We must define the dynamics (the Lagrangian has the advantage of a manifest Lorentz invariance (the Hamiltonien does not) and the symmetries. 3) Last but not least: we ...
... QCD a QFT (synthesis of special relativity and quantum mecanics): 1) We must first define fields and the corresponding particles. 2) We must define the dynamics (the Lagrangian has the advantage of a manifest Lorentz invariance (the Hamiltonien does not) and the symmetries. 3) Last but not least: we ...
quantum mechanics
... 2. Equilibrium radiation. Classical radiation. Rayleigh-Jeans equation. Quantum radiation. Planck formula. 3. Canonical quantization. Schrodinger equation. Task setting. 4. Boundary conditions. Wave function. Eigenvalues and eigenfunctions. Discrete and continuous eigenvalues. Normalization of eigen ...
... 2. Equilibrium radiation. Classical radiation. Rayleigh-Jeans equation. Quantum radiation. Planck formula. 3. Canonical quantization. Schrodinger equation. Task setting. 4. Boundary conditions. Wave function. Eigenvalues and eigenfunctions. Discrete and continuous eigenvalues. Normalization of eigen ...
Slides
... How to create enough matter for subsequent nucleogenesis before universe gets too large before universe gets too large. 2. Decoupling of matter scale and Planck scale Matter interactions proceed at nuclear scale of 1 GeV. p But equations have built‐in Planck scale of 1018 GeV. How do these scales ...
... How to create enough matter for subsequent nucleogenesis before universe gets too large before universe gets too large. 2. Decoupling of matter scale and Planck scale Matter interactions proceed at nuclear scale of 1 GeV. p But equations have built‐in Planck scale of 1018 GeV. How do these scales ...
Quantum Field Theory
... Dirac’s interpretation: due to Pauli exclusion principle each quantum state can be occupied by one electron and we simply live in a universe with all negative energy ...
... Dirac’s interpretation: due to Pauli exclusion principle each quantum state can be occupied by one electron and we simply live in a universe with all negative energy ...
SCIENTIFIC GROUNDS FOR PRECOGNITION
... well-defined) types of pairs. In half the pairs, Alice's particle has spin "+1" and Bob's particle has spin "-1," and vice versa for the other half. No problem, right? This simple theory obviously reproduces all of the quantum mechanical predictions, namely (a) that each experimenter should see a ra ...
... well-defined) types of pairs. In half the pairs, Alice's particle has spin "+1" and Bob's particle has spin "-1," and vice versa for the other half. No problem, right? This simple theory obviously reproduces all of the quantum mechanical predictions, namely (a) that each experimenter should see a ra ...
Introduction: what is quantum field theory ?
... Yet another reason to treat fields as the fundamental physical quantity is that all particles of the same type are the same. This is much more serious than it initially sounds. For example, two electrons are identical in every way, regardless of where they came from and what they’ve been through. Th ...
... Yet another reason to treat fields as the fundamental physical quantity is that all particles of the same type are the same. This is much more serious than it initially sounds. For example, two electrons are identical in every way, regardless of where they came from and what they’ve been through. Th ...
Higgs - mechanism
... observed value of Higgs boson mass is compatible with great desert short distance fixed point with small λ predicts Higgs boson mass close to 126 GeV prediction in SM+gravity, but also wider class of models desert: no new physics at LHC and future colliders relevant scale for neutrino physics may be ...
... observed value of Higgs boson mass is compatible with great desert short distance fixed point with small λ predicts Higgs boson mass close to 126 GeV prediction in SM+gravity, but also wider class of models desert: no new physics at LHC and future colliders relevant scale for neutrino physics may be ...
Numerical Methods in Quantum Field Theories
... Mechanics with Special Relativity in a very satisfying way. While the subject is nowhere near complete, the interactions described with QFT explain observed behavior so naturally it is impossible to deny its computational ability. However, while the theory allows us to write down very elegant descri ...
... Mechanics with Special Relativity in a very satisfying way. While the subject is nowhere near complete, the interactions described with QFT explain observed behavior so naturally it is impossible to deny its computational ability. However, while the theory allows us to write down very elegant descri ...